How a Ground Source Heat Pump Works for a School or College

How a Ground Source Heat Pump Works for a School or College Vertical System Image courtesy of Climate Master 1

Geothermal avoids the need for outdoor equipment..reducing vandalism and liability Image courtesy of Climate Master 2

Benefits-Cost Comparisons Cents per Square foot Kentucky Schools Annual Energy Cost Per Square Foot Geothermal Heat Pump Source: Kaiser-Taulbee Associates, Inc School Life Cycle Cost Studies & Case Histories, report Kentucky Utilities, 1995, page 28 3

Benefits-Geothermal Heating and Cooling Operating unit inside and heat exchanger loop is underground protects students. Low operating and maintenance cost 25% to 50% less than conventional system High energy efficiency all year long GSHP are among the quietest ever designed Geothermal has no flame, no flue, no odors, and no danger of fire or fumes and a long life. Less space for equipment more space for classrooms 4

Benefits-Geothermal Heating and Cooling Heat one classroom and cool the other at the same time. No rooftop or ground mounted equipment to be damaged by the hail, roof leaks and vandalism. Cleaner site and building line, as minimal equipment surrounding or on building Increased humidity and Indoor Air Quality Control Natural dehumidification Ground-source heat pumps have the lowest life-cycle costs in several cost studies that I ve done of heating and air-conditioning systems. John Shonder of the Energy Department s Oak Ridge National Laboratory in Tennessee With Energy in Focus, Heat Pumps Win Fans LIZ GALST Published: August 13, 2008 5

Benefits-Geothermal Heating and Cooling You can get heating, central air conditioning, and domestic hot water, three important benefits from a single compact unit. Dependable, Reliable, Long Service Life Ground Loop Tubing warranties of 50+ years Virtually Free Domestic Hot Water Boilerless/Towerless operation Significantly reduce full time maintenance staff and eliminate boiler maintenance Longer equipment life. Units are not running at temperature extremes. 6

Benefits-Geothermal Heating and Cooling Eliminate chemical and other costs associated with the prevention of scaling and bacterial growth. Eliminate year-round tower operation that requires a lot of expense especially during the colder weather months. Low source energy use and low air pollutant emissions- green technology. School GSHPS can be an open classroom for students to observe energy use. 7

How do you get earths energy? 100% 17% reflected by clouds. Space 6% reflected by surface. 19% absorbed by water vapor, dust 4% absorbed by clouds. Atmosphere 8 46% absorbed by ground Earth The earth is like a solar battery absorbing nearly half of the sun s energy. The ground stays a relatively constant temperature through the seasons, providing a warm source in winter & a cool heat sink in summer. 8

How do you get earths energy? Earth absorbs almost 50% of all solar energy and remains a nearly constant temperature of 50 F to 70 F depending on geographic location. Heating-In winter, water circulating inside a sealed loop absorbs heat from the earth. Here it is compressed to a higher temperature and sent as warm air to your indoor system for distribution throughout your school. Cooling-In the summer, the system reverses and expels heat from your school to the cooler earth via the loop system. This heat exchange process is not only natural, but is a truly ingenious and highly efficient way to create a comfortable climate in your school. 9

How the earth works to save you energy! Cooling Geo4VA - This is a Special Energy Project funded by the U.S. Department of Energy's State Energy Program through the Virginia Department of Mines, Minerals, and Energy. 10

How the earth works to save you energy! Heating Geo4VA - This is a Special Energy Project funded by the U.S. Department of Energy's State Energy Program through the Virginia Department of Mines, Minerals, and Energy. 11

Parts of a Ground Source Heat Pump System Heat Pump Ground Loop Duct work Ground Loop (geoexchange) Closed loop (most used) Open loop Heat Pump Water to Air HP Water to Water HP (floor heating) Distribution System Duct work And/or Hydronic-water in piping in floor. 12

Installations of GSHP 5 Bore Holes usually 200 to 400 feet deep Space 15-20 feet apart Plastic pipe with U-Bend inserted in bore hole Grout filled around plastic pipe All pipe in bore holes connected to Header pipe Maximum header 4 would serve approximately 70 tons Header pipes connected to ground source heat pumps in building 13

Ground Closed Loop System Vertical Bore holes Horizontal Trenching 14

Ground Closed Loop System Trenching Trenching-horizontal loops with one or more pipes in loops. 4-6 deep. Or Vertical Boring vertical loop bore hole with one pipe down hole looping back to surface. Restricted space. Or Directional Boring - horizontal loop that can be under a building (limited space). Vertical Boring Directional Boring 15

Ground Open Loop System Heat Pump Delivery Well Groundwater systems - groundwater is available at reasonable depth and temperature. The groundwater is pumped from the delivery well to the heat pump and from there to the sink well. Sink Well 16

Ground Open Loop System Pond Lake or pond loops in water will require some horizontal trenching from house to the pond or lake. Lake level must be sustainable during dry season and at least deep and large enough to maintain temperature during drought periods. 17

School may have several Heat Pumps Ducts Heat Pump Image courtesy of Climate Master Flow Controller Water to air heat pump for air duct heating and cooling Water to water heat pump for use as Radiant Floor Heating, Baseboards, and Fan coil heating/cooling. 18

Distribution Systems-Duct Work Warm or cold air blown through ducts Zone Control and/or Remote Master Control Outstanding Comfort Innovative Air Systems 19

Distribution Systems-Hydronic Systems Hydronic Systems Floor Heating providing warm water distributed in floor Room Zone Control Outstanding Comfort When your feet are warm your body feels warm too. 20

Richland Middle School Richland Hills, Texas Geothermal System Installed in 1995 From Don Penn Consulting 21

Cost and Payback for School In fact, heat pump systems may offer the greatest savings to the owners of commercial buildings, where you have a fairly large heating and cooling load, the payback period could be two to three years. John W. Lund, director of the Geo-Heat Center at the Oregon Institute of Technology. How much more depends on where your school is located and which GSHPS you use. Cost depends on available contractors who are accredited installers in your area. Open Loop systems do not require some specialized contractors such as drillers and trenchers and are less affected by this problem. 22

Frisco ISD Schools Comparison Year 2005-2006 Middle School Annual Utility Comparison - $/SF Ground Source Heat Pumps 120k sf From Don Penn Consulting 23

Roach Middle School-120,000 sf Well Field Locations Texas From Don Penn Consulting 24

School GSHP System Research* Over 200 schools in Missouri that now operate with geothermal heat pumps. The cost per Million BTU comparisons with current energy cost: Natural Gas (77% Efficiency) $17.53 Propane Gas (77% Eff.) $21.29 Fuel Oil (70% Eff.) $16.67 Electricity Resist. Heat (100% Eff.) $12.01 Ground Source Heat Pump(410% Eff.) $ 2.93 *Ground Source Heat Pumps: A Good Fit For Schools By: John M. Vanderford, Vanderford and Associates - Tuesday, Jan 24, 0625

Birdville ISD Schools Comparison 2000-2001 $/SF/Year Conventional Split Geo Geo Hybrid 26

Birdville Schools Comparison Year 2001- Install Cost From Don Penn Consulting 27

Few Comments Salamanca High School/Middle School, NY showed a $81,230 per year saving after installing Geothermal Heat Pump Systems. Report from School Board President Robert Crandall, Salamanca Public Schools, NY The ground-source heat pump has reduced Madison Middle School s environmental footprint by 300 tons of carbon dioxide annually and has saved the district $15,000-20,000 in natural gas costs each year. Don Gillmore Building Excellence Program, Seattle Public Schools, Washington 28

Environmental Protection Agency (EPA) According to EPA* GeoExchange systems are the most energy efficient, environmentally clean, cost-effective space conditioning systems available. Geothermal operates efficiently because the energy source, the sun, has already created the energy and stored it in the earth. *Environmental Protection Agency, Space Conditioning: The Next Frontier. Office of Air and Radiation, 430-R-93-004 (4/93). 29

How a Ground Source Heat Pump Works for a School or College Vertical System http://www.igshpa.okstate.edu Image courtesy of Climate Master 30